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PJM©2016
Virginia State Corporation Commission and Virginia State Bar
34th National Regulatory Conference
May 20, 2016 Paul M. Sotkiewicz, Ph.D. Senior Economic Policy Advisor PJM Interconnection, LLC
PJM©2016 2
PJM as Part of the Eastern Interconnection
As of 1/2016
• 27% of generation in Eastern Interconnection
• 28% of load in Eastern Interconnection
• 20% of transmission assets in Eastern Interconnection
Key Statistics
Member companies 960+ Millions of people served 61
Peak load in megawatts 165,492
MW of generating capacity 171,648
Miles of transmission lines 72,075
2014 GWh of annual energy 792,580
Generation sources 1,304
Square miles of territory 243,417
States served 13 + DC 21% of U.S.
GDP produced
in PJM
PJM©2016
Where Have We Been with Reliability, Markets, and Environmental Policy?
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Generation Retirements Since May 2011
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Responsiveness of Capacity Market
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Changing Energy Market Trends
* Source: Monitoring Analytics, LLC. 2015
State of the Market
Report for PJM. March 10, 2016.
2015 – 4th Quarter
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Declining Emission Rates
0123456789
900
950
1,000
1,050
1,100
1,150
1,200
1,250
1,300
1,350
2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015
SO2 and NOx (lbs/MWh)
CO2 (lbs/MWh)
CarbonDioxideSulfur Dioxide
PJM System Average Emissions
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
780
800
820
840
860
880
900
920
Oct Nov Dec
2015 – 4th Quarter
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Main Driver: Natural Gas
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A Peak into the Future of Markets, Reliability, and Environmental Policy
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Declining Electricity Demand Growth
Without EKPC 2011-2014
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Queued Interconnection Requests
December 31, 2015
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State-By-State vs Regional Compliance:
Proposed CPP Analysis
*DC does not have a compliance obligation. The portion of Tennessee in PJM does not have any sources covered by the proposed rule. The portion of Michigan in PJM has a single covered source (Covert
Generating Station) and was not studied for state-by-state compliance.
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Emissions Reductions from RE & EE:
Proposed CPP Analysis
2020 2025 2029
Other 0.0% 1.3% 2.5%
Natural Gas 68.7% 53.8% 51.6%
Coal 31.3% 44.9% 45.9%
0%10%20%30%40%50%60%70%80%90%
100%
2020 2025 2029
Other 5.2% 3.1% 4.0%
NGCC 60.0% 66.9% 70.2%
Coal 34.8% 30.1% 25.8%
0%10%20%30%40%50%60%70%80%90%
100%
Energy Displacement due to Wind Resources Energy Displacement due to Energy Efficiency
OPSI 2b.1 and OPSI 2a used to calculate displacement percentage OPSI 2b.2 and OPSI 2a used to calculate displacement percentage
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Detailed Reference Model and Reference Model Sensitivity Results: Final CPP Analysis
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Reference Model and Reference Model Sensitivities PJM Capacity and Energy Market Prices ($2018)
$/MW-Day $/MWh
0
100
200
300
400
2018 2021 2024 2027 2030
Reference
Capacity Market Energy Market
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Levelized Energy & Capacity Market Prices ($2018) vs. Change in Generating Capacity
MW
20
25
30
35
40
45
50
55
60
65
70
Low Gas with RPS
Reference with RPS Low Gas Reference Low Gas
with RPS Reference with RPS Low Gas Reference
$/MWh
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PJM Region CO2 Emissions for Existing Sources
vs. Clean Power Plan Emissions Targets CO2
Tons (M)
Coal
Retirements
Emissions and target emissions are for existing sources only covered by the Clean Power Plan regulation for existing sources.
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Solar Renewable Energy Credits Weighted Average Price for PJM Region
www.pjm.com
No credit multipliers are
assumed; therefore,
Solar Renewable Energy
Credits = Generation.
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Renewable Energy Credit PJM Regional Price
www.pjm.com
No credit multipliers are
assumed; therefore,
Renewable Energy Credits =
Generation.
PJM©2016
Transmission Expansion Advisory Committee April 07, 2016
www.pjm.com
PJM CPP Reference Model and Sensitivities
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Reference Model
What it is • Simultaneous clearing of energy, capacity, REC and SREC markets that provides a robust
modeling representation of potential system futures driven by policy, regulatory and market drivers
How should it be used? • To convey dynamics of various stimuli on the economic viability of existing and future
generation • Only for comparison with policy cases What isn’t it • An economic forecast of expected future outcomes • A representation of all the considerations resource owners may make in investing in new
assets or retiring existing assets
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Key Assumptions
Reference Model Assumes Production and Investment Tax Credit[1]
Sensitivities Renewable Portfolio Standard (RPS)
Assumes Production and Investment Tax Credit and enforces RPS through state Alternative Compliance Payments
Lower Gas Assumes Production and Investment Tax Credit Lower Gas + RPS Assumes Production and Investment Tax Credit and enforces RPS through state Alternative
Compliance Payments
www.pjm.com
Key Inputs Description Reference Natural Gas Price ($2016) $5.14/mmbtu (avg. 2016-2037) Lower Gas Natural Gas Price ($2016) $3.43/mmbtu (avg. 2016-2037) Inflation 2.25% Effective Tax Rate 40% Weighted Average Cost of Capital 8% Study Horizon 2018 to 2037
[1] Renewable Energy Certificates (REC) are assumed tradeable throughout the footprint. Solar RECs must be produced within the state.
PJM©2016 4
Reference Model Key Observations
Intermediate and Baseload Resource • Low avoidable costs (once built) and high capacity prices enable natural gas combined cycles to
enter the market despite depressed energy market prices. • Lower gas prices will lead to greater dependence on the capacity market for cost recovery by
coal and nuclear resources. • Coal resources appear to be at greater risks than nuclear since lower natural gas prices mean
not only lower margins in the energy market but also reduced run hours.
www.pjm.com
PJM©2016 5
Reference Model Key Observations
Intermittent Resources • Wind and solar can continue to grow in a low gas price environment provided RPS is in
place and alternative compliance penalties remain high. • Solar can take advantage of resource retirements more effectively than wind due to higher
capacity value (38% vs. 13%). Emissions Sustained lower gas prices will result in CO2 reductions through retirements and new combined cycle entry.
www.pjm.com
PJM©2016 6
How is PJM Performing the CPP Analysis
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Detailed Reference Model and Reference Model Sensitivity Results
www.pjm.com
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Reference Model and Reference Model Sensitivities PJM Capacity and Energy Market Prices ($2018)
www.pjm.com
$/MW-Day $/MWh
050
100150200250300350400
2018 2021 2024 2027 2030
ReferenceLow GasReference with RPSLow Gas with RPS
0
10
20
30
40
50
60
2018 2021 2024 2027 2030
Capacity Market Energy Market
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Levelized Energy & Capacity Market Prices ($2018) vs. Change in Generating Capacity
www.pjm.com
MW
-20,000
-10,000
0
10,000
20,000
30,000
40,000
Wind Steam Turbine OilSteam Turbine Gas Steam Turbine CoalSolar Combustion Turbine GasCombined Cycle Gas
20
25
30
35
40
45
50
55
60
65
70
Low Gas with RPS
Reference with RPS
Low Gas Reference Low Gas with RPS
Reference with RPS
Low Gas Reference
$/MWh
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Solar Renewable Energy Credits Weighted Average Price for PJM Region
www.pjm.com
No credit multipliers are assumed; therefore, Solar Renewable Energy Credits = Generation.
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Renewable Energy Credit PJM Regional Price
www.pjm.com
No credit multipliers are assumed; therefore, Renewable Energy Credits = Generation.
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PJM Region CO2 Emissions for Existing Sources vs. Clean Power Plan Emissions Targets
www.pjm.com
250270290310330350370390410430
2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030
Reference
Low Gas
Referencewith RPSLow Gaswith RPSCPPTargets
CO2 Tons (M)
Coal Retirements
Emissions and target emissions are for existing sources only covered by the Clean Power Plan regulation for existing sources.
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Appendix 1
Data Sources
www.pjm.com
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Evolved analytical approach to evaluate compliance impacts over a wider range of state and multi-state compliance scenarios
Clean Power Plan Analysis
2014 Versus 2016 Analysis
www.pjm.com
2014 Analysis 2016 Analysis Simulation Tool ABB Promod IV Plexos by Energy Exemplar
Energy Market Chronological simulation of discrete years (SCED) Chronological and load duration curve based simulation
Entry/Exit None (Unit at-risk analysis performed in post-processing)
20-year optimized economic entry/exit based on simulated energy and capacity market revenues
Capacity Market None 20-year clearing BRA for RTO within simulation
Reserves RTO operating reserves RTO operating reserves
Renewable Portfolio Standard (RPS)
Scenario based (RPS targets achieved)
Market optimization based on Renewable Energy Credit clearing prices (REC and SREC), energy and capacity market results
GHG Emissions Dispatch to price (Manually iterate on emissions price)
Single-Step optimization for annual or multi-year constraints
SO2 and NOx ABB forecasts ABB forecasts
Combined Cycle and Combustion turbine siting
Queue units with an Interconnection Service (ISA) or Facilities Study Agreement (FSA)
Units with permits added automatically. Remaining queue projects enter when economic (FSA/ISA preference)
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Modeling Assumptions
www.pjm.com
Combined Cycle
Combustion Turbine Nuclear Coal Solar Wind
Overnight Capital Costs
Brattle 2014 PJM Costs of New Entry study
Brattle 2014 PJM Costs of New Entry study
EPA v5.13 N/A NREL ATB 2015 - 2018 Technology year
NREL ATB 2015 - 2018 Technology year
Technical Life 30 30 40 N/A 20 20
Depreciation MACRS 20-year MACRS 15-year MACRS 15-year N/A MACRS 5-year MACRS 5-year
Avoidable Cost PJM 2019/2020 ACR Defaults
PJM 2019/2020 ACR Defaults
EPA Base Case v5.13
EPA Base Case v5.13
NREL ATB 2015 - 2018 Technology year
NREL ATB 2015 - 2018 Technology year
Heat Rate (Btu/KWh) 6,800[1] 10,300[1] 10,452
Capacity Factor Dispatchable within Model NREL 2006 hourly shapes
NREL 2006 hourly shapes
Fuel Forecast ABB Fall 2015 Fuel Forecast Locational Costs Adders
Brattle 2014 PJM Costs of New Entry study
Brattle 2014 PJM Costs of New Entry study
EIA energy market module NERC sub-regions
EIA energy market module NERC sub-regions
EIA energy market module NERC sub-regions
[1] Varies by PJM Locational Deliverability Region (GE 7FA technology)
PJM©2016
Common Questions
www.pjm.com
Appendix 2
PJM©2016 17
Common Questions • Why is PJM performing analysis of the Clean Power Plan?
– The Organization of PJM States Inc. (OPSI) requested PJM to perform analysis, and PJM worked with the states and stakeholders to define the scope and timeline for the analysis. http://pjm.com/~/media/committees-groups/committees/teac/20160211/20160211-pjms-modeling-approach-to-the-final-cpp-emissions-guidelines.ashx
• How does PJM treat expected unit technical life? – PJM’s modeling reflects only market based entry/exit with the exception of announced retirements.
• Does PJM model any minimum or maximum limits for resources? – No, resources enter based on energy market revenues, capacity market revenues, solar and non-solar
Renewable Energy Credits, and applicable Federal Tax Incentives. • How are Fixed Resource Requirement (FRR) resources treated in the capacity market simulation?
– All resources within the PJM footprint participate in the capacity market based on their unforced capacity. FRR resources are assumed to be price-takers, but can retire as a function of cost-recovery.
www.pjm.com
PJM©2016 18
Common Questions
• Is PJM doing resource planning? – Absolutely not. The resource locations are all based on queue sites that are advanced in the interconnection
queue study process. Wind and solar locations were added based on NREL sites nearest to the PJM transmission system.
– The model is simply selecting resources based on when they become available given the various market prices. • What is the impact of not representing transmission in the 20-year model?
– In the short-run (< 5 years) some resources benefit significantly from the presence of transmission congestion, just as transmission congestion represents a limitation for other resources.
– In the long-run, through PJM’s baseline and market efficiency processes transmission congestion should be mitigated, such that resources across the interconnected system compete based on fundamental operating characteristics.
• How does PJM represent the external world? PJM uses the same external world representation used in PJM’s Day-Ahead Market intended to replicate flow impacts on significant transmission constraints. However, in the model, external resources are not bid into the market.
www.pjm.com
PJM©2016 19
Common Questions
• How are retirement and entry decisions made within the model? – Plexos performs a single step optimization of new entry and retirements for a 20-year horizon. – Within the 20-years the resource must have a positive net present value given capacity and energy market revenues,
and for renewables, revenues from the renewable energy credit trading market. – Market revenues must exceed levelized capital payments, annual avoidable costs and production costs including
cost of capital. • Does PJM model any confidential data?
– PJM’s model is based on publically available data with the exception of vendor supplied fuel and emissions forecasts. The model was tuned in coordination with various market operations and system planning departments, consequently not all data or assumptions will be provided publicly.
www.pjm.com
PJM©2016 20
Primary Data Sources
• Federal and State Energy Policy and Incentives: http://programs.dsireusa.org/system/program/
• EPA Generating Unit and Financial Assumptions: https://www.epa.gov/airmarkets/power-sector-modeling-platform-v513
• Natural Gas Combined Cycle and Combustion Turbine Financial Assumptions: https://www.pjm.com/~/media/documents/reports/20140515-brattle-2014-pjm-cone-study.ashx
• Solar and Wind Financial Assumptions: http://www.nrel.gov/docs/fy15osti/64077-DA.xlsm
• Solar Hourly Shapes: http://www.nrel.gov/electricity/transmission/solar_integration_methodology.html
• Wind Hourly Shapes: http://www.nrel.gov/electricity/transmission/wind_integration_dataset.html
• Variable Resource Requirement Curve and RPM Planning Parameters: http://pjm.com/~/media/markets-ops/rpm/rpm-auction-info/2019-2020-bra-planning-parameters.ashx
www.pjm.com
State Implementation of EPA's Clean Power Plan
Will Cleveland Staff Attorney
Southern Environmental Law Center
National Regulatory Conference College of William and Mary
Williamsburg, VA May 20, 2016
I. Role of states in CPP compliance
a. EPA promulgates guidelines b. States craft state-specific plans to account for each state’s particular energy mix c. EPA gave states large flexibility
i. Rate-based 1. Dual rate 2. Blended rate
ii. Mass based 1. Must include “leakage” provision 2. Including new sources is presumptively approvable
iii. State measures d. Trading among states available for either rate or mass plans, but rate states may not
trade with mass states i. Large and transparent markets will reduce compliance costs
II. Virginia’s plan development
a. Public hearings b. Stakeholder process c. DEQ drafting at Governor’s direction d. State Air board approval e. Submission to EPA
III. Compliance for Virginia is not difficult
a. Due to pre-existing commitments by utilities for reasons entirely unrelated to carbon pollution, most of the work is already done
b. Virginia is already 80% of the way to compliance under final rule c. 2016 Integrated Resource Plans – strengths and weaknesses
IV. Policy considerations for Virginia’s plan
a. Virginia’s plan must reduce carbon emissions i. Under certain rate-based plans, Virginia could technically comply with the
CPP while allowing total carbon emissions to rise b. Virginia’s plan must make compliance as low-cost as possible – when done properly,
Virginia can reduce its carbon pollution and simultaneously lower average ratepayer bills
i. Access to the largest and most transparent trading market ii. Concentrate on renewables and efficiency programs
1. Lowest hanging fruit 2. Cheapest zero-carbon options 3. Source of high-quality, well-paying jobs that cannot be outsourced 4. Greater access to efficiency programs and distributed generation such
as rooftop solar can reduce customers’ bills
V. Concluding thoughts
1
State Implementation of EPA’s Clean Power Plan Panel Key Issues from a Ratepayer Perspective
Scott Norwood1
Norwood Energy Consulting
National Regulatory Conference College of William and Mary
Williamsburg, VA May 20, 2016
1. Preliminary Assessment of Ratepayer Impacts of “Final” Clean Power Plan (“CPP”)
a. CPP compliance cost now appears much lower than originally forecasted
i. Decline in natural gas prices
ii. Moderation in final CPP compliance goals and dates
iii. Coal retirements/conversions due to MATS and Regional Haze
iv. Regional compliance solutions
b. Mass based compliance goals generally appear to be easier to meet than Rate based goals
c. Over-compliance provides opportunities for ratepayer savings in some instances
2. Ratepayer Input to State CPP Compliance Plan Development Process
a. Ratepayer/State Regulator input to design of State compliance plan is essential to ensure
lowest reasonable cost compliance solution
b. Need for evidentiary based proceedings to develop information necessary to inform
development of optimal statewide compliance plan
i. Develop forecasted costs needed for modeling of compliance alternatives
ii. Baseline forecasts of carbon emissions for state generating resources
iii. Cost allocation issues
1 Mr. Norwood regularly performs consulting services for the Virginia Office of Attorney General’s Division of Consumer Counsel as an expert on electric utility matters. All views expressed by Mr. Norwood at the 2016 National Regulatory Conference are those solely of Mr. Norwood’s, and are not to be construed as the views of the Virginia Office of Attorney General.
2
3. Regulatory Policies for CPP Implementation
a. Policies for evaluation of CPP impacts on major utility investments for demand-side and
supply-side resources through integrated resource planning process
b. Policies for allocation of CPP compliance costs and revenues
i. Allocation between different state jurisdictions
ii. Allocation between different utilities/electric service territories within the same state
iii. Allocation between retail and wholesale rate classes
iv. Allocation between retail rate classes
c. Need for Re-evaluation of Major Utility Investments in light of final CPP
i. Billions of dollars have already been invested on projects justified based on pre-CPP
carbon compliance cost estimates that are now outdated and over-stated
ii. While CPP details are not final, enough is known to re-evaluate major projects to
avoid additional unjustified investments
4. Conclusions
1
THE 34TH NATIONAL REGULATORY CONFERENCE DISCUSSION OUTLINE
STATE IMPLEMENTATION OF EPA’S CLEAN POWER PLAN MICHAE G. DOWD
MAY 20, 2016
Supreme Court stay of EPA’s Clean Power Plan:
− Supreme Court issued a stay of EPA’s CPP on Feb 9. − Governor McAuliffe announced on Feb 10 that Virginia would stay on course and continue to develop
the elements for a Virginia plan to reduce carbon emissions: o “Over the last several months my administration has been working with a diverse group of
Virginia stakeholders that includes members of the environmental, business, and energy communities to develop a strong, viable path forward to comply with the Clean Power Plan. As this court case moves forward, we will stay on course and continue to develop the elements for a Virginia plan to reduce carbon emissions and stimulate our clean energy economy.”
− Virginia is part of a coalition of 25 states, cities and counties that is intervening to defend the CPP against legal challenge.
− The stay will remain in effect through the review of the CPP by the Court of Appeals for the District of Columbia Circuit (D.C. Circuit) and until the Supreme Court decides the matter, in the event that the losing side decides to appeal to the Supreme Court. This legal process could run into the middle of 2018.
− Will EPA “finalize” CPP Model Rule, Federal Plan, and CEIP this summer? − Budget Bill General Assembly 2016 Session Item 369 relating to Air Program:
o “Funding provided in this item is contingent upon no amount contained herein being used to prepare or submit to the Environmental Protection Agency (EPA) a state implementation plan, or other document with respect to the Environmental Protection Agency's “Carbon Pollution Emission Guidelines for Existing Stationary Sources: Electric Utility Generating Units,” 80 Fed. Reg. 64,662 (October 23, 2015), unless the stay issued by the United States Supreme Court is released pending disposition of the applicants' petitions for review in the United States Court of Appeals for the District of Columbia Circuit and disposition of the applicants' petition for a writ of certiorari, if such writ is sought.”
Virginia’s CPP Compliance Planning Process (2014 – 2016):
− Setup a dedicated web page in order to convey both federal and state information about the CPP to the public.
− Informal public comment periods to gather written comment from the public (proposed and final emission guidelines/CPP).
2
− DEQ met with the public to informally discuss EPA's carbon reduction plan at a series of listening sessions around the Commonwealth.
− Approximately 400 persons attended the listening sessions, and over 3000 written comments were received.
− DEQ also met, on an ongoing basis, with interested stakeholders, including affected utilities, the business community, and environmental organizations.
− In addition to receiving general input from the public, DEQ also sought to identify and gather input from vulnerable and overburdened communities.
− Virginia DEQ coordinates with EPA and other states on plan development. − Virginia DEQ participates in meetings, trainings, workshops, other events in support of the development
of the Commonwealth’s plan held by multiple entities, including but not limited to EPA, Nicolas Institute (Duke University), Georgetown Climate Center, Harvard Law School/Harvard Environmental Policy Initiative, and other organizations.
− Established a diverse 14 member stakeholders group (environmental organizations, electric power sector, industry, clean energy trade organizations, local government, community organizations) to advise and assist the Commonwealth to develop elements that could be included in the state compliance plan:
o Stakeholders group met on November 12, 2015, December 15, 2015, February 12, 2016, February 18, and March 11, 2016
o A report summarizing the stakeholder group's activities has been released to the public and along with all other Stakeholder group materials is available on DEQ’s CPP dedicated webpage: www.deq.virginia.gov/Programs/Air/GreenhouseGasPlan.aspx
o Future discussions on recent CPP modeling results? o Other states plan to duplicate Virginia’s stakeholder process
− Virginia DEQ is continuing to get smarter and more informed about the key issues that will impact
compliance and policy decisions. − We will abide, of course, the General Assembly’s mandate not to prepare or submit a plan during the
pendency of the CPP stay, but will position ourselves as best possible to develop a state plan once the stay is lifted.
1
COMMONWEALTH OF VIRGINIADEPARTMENT OF ENVIRONMENTAL QUALITY
INTRA AGENCY MEMORANDUM
TO: File
FROM: Karen G. SabasteanskiOffice of Regulatory Affairs
SUBJECT: Final Activity Report - Stakeholder Group Concerning the Clean PowerPlan for Greenhouse Gases
DATE: April 18, 2016
INTRODUCTION
A stakeholder group (see Attachment A) was established by the Department ofEnvironmental Quality (DEQ) on October 23, 2015. The purpose of this group was todiscuss possible alternatives and compliance paths that the Commonwealth of Virginiamay consider to meet the final U.S. Environmental Protection Agency (EPA) CleanPower Plan (CPP) rule. Members were invited due to the impact that this rule may haveon their interests or on those whom they represent.
DEQ coordinated and facilitated the discussions of this group in an effort to findcommon ground and elements that could be included in the state compliance plan forthe CPP. Meetings of the stakeholder group were held at the DEQ central officebuilding, 629 East Main Street, Richmond, Virginia on the following dates:
• November 12, 2015, from 1:30 to 3:30 p.m.• December 15, 2015, from 9:00 a.m. to 3:00 p.m.• February 12, 2016, from 9:00 a.m. to 3:00 p.m.• February 19, 2016, from 9:00 a.m. to 3:00 p.m.• March 11, 2016, from 9:00 a.m. to 3:00 p.m.
At the time of this report, no further meetings have been planned; however, at a laterdate DEQ will evaluate whether additional meetings are needed, particularly afterseveral utility integrated resource plans (IRPs) and studies become available in May2016.
Meeting minutes are found in Attachment B. A prioritized list of issues developed by thegroup, and summaries of meeting notes taken by facilitating staff are included asAttachment C and Attachment D.
2
PROCEDURES
This group is a public body under the Freedom of Information Act (FOIA), and mustcomply with FOIA requirements for conducting state business in the open and theavailability of public records. Members were advised of FOIA requirements, includingthe need for members to circulate information to the group via staff. Lists of documentsprovided by members to the group are found in the meeting minutes (see Appendix B).
The group was polled from time to time by the facilitator in order to determine ifconsensus existed on a particular issue, or to better define specific areas of agreementor disagreement. "Consensus" was considered to have been achieved when the groupvoted unanimously in favor of a specific subject. "General agreement" was the result ofthe group voting primarily in favor of a subject, with some members expressingreservations or outstanding questions that prevented them reaching consensus. "Noconsensus" was reached if there were any negative votes, or a mixture ofpositive/negative/unsure votes.
SPECIFIC DISCUSSION ISSUES
DEQ sought input on the following specific questions.
• Question 1: What are the benefits and issues of each approach (sourceperformance standards plan or state measures plan) and what is the preferredpath?
• Question 2: What general mechanism should be used to implement thepreferred compliance plan (mass-based versus rate-based)?
• Question 3: What specific mechanisms should be included in the complianceplan?
• Question 4: What other issues should be addressed and how?
RECOMMENDATIONS/UNRESOLVED ISSUES
Below is a summary of the results of the work of the group. The first is a list ofrecommended elements of the plan on which the panel developed consensus(complete agreement) or general agreement (some reservations or uncertainty). Thesecond is a list of the issues on which the panel failed to develop consensus or generalagreement. Finally, other issues that were identified and discussed that did notnecessarily fall into a plan recommendation are summarized. Attachments B through Dprovide further details on the group's discussions.
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Recommended Plan Elements
Question 1: The group came to consensus that a source performancestandards plan was preferred over a state measures plan.
Question 3: There was general agreement that Virginia should wait untiladditional studies are released (anticipated in May 2016) before making a decisionabout mass vs. rate (e.g., release of IRPs from Dominion and American Electric Power,the PJM Regional Transmission Organization study, etc.). Although the group did notcome to consensus as to whether the compliance plan should be mass- or rate-based(see Question 2 discussion below), there was consensus/general agreement on specificmechanisms for either approach.
A mass-based plan should contain or consider the following:
• Program should be trading-ready (consensus).• Must address leakage (i.e., shifting generation to new plants).• Allowance allocation should be based on historical generation or emissions.• Allow early retired units to keep allowances through their useful life to ensure
coverage for rate payers.• Include trading, banking and borrowing of allowances.• Provide some set aside of allowances.• Recognize the importance of renewables in the allowance allocation method,
e.g., performance-based allocation system that updates annually and istechnology neutral.
• Predicting future load growth is difficult.• Look into ways to address uncertainty.
A rate-based plan should contain or consider the following:
• Program should be trading-ready (consensus).• A reliability safety valve (consensus).• A national registry for generating verifiable allowances and credits (consensus).• Price transparency.• Include EPA model rule safety valve language.• Include biomass and combined heat and power; include all types of renewable
and low-emission sources.
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Unresolved Issues
Question 2: The group did not come to consensus as to what generalmechanism should be used to implement the preferred compliance plan:
option support oppose neutral/unsurerate 4 members 7 members 1 membermass - existing only 3 members 3 members 5 membersmass with new sourcecomponent
5 members 5 members 1 member
Advantages and disadvantages identified by group members for both approaches aresummarized below.
MASS-BASED APPROACH, PROS AND CONSexisting only new and existing
pros cons pros consAllowances are a knowncommodity--most clearapproach to ensuretransparent/efficient markets.
Increased energy costswithout future newsources.
Load growth is built intothe cap.
Limits growth especially if newsources are included.
More market transparency. More expensive; costincreases.
Greater environmentalcertainty.
Finite amount of allowancestend to pit companies againsteach other.
More interstate trading. Finite amount ofallowances tend to pitcompanies against eachother.
Equally open access tomarkets.
Price volatility is greater.
Low costs; leads to economicdevelopment/jobs.
Limits growth, especiallyif new sourcecomponent is included.
Leakage is addressed. Very difficult to generate CO2allowances.
Environmental certainty due tocap.
Including new sourcesreduces flexibility.
Equally open access tomarkets.
Price volatility is greater.
All technologies canparticipate.
Increased cost if anauction is used toallocate allowances.
Allowances are a knowncommodity--most clearapproach to ensuretransparent and efficientmarkets.
Surrounding states havebigger cap.
Economic development ofrenewable and energyefficiencies due to cap.
Load growth only for instatesources not importing energy;energy imports should beminimized.
Leakage can be addressedvia allowance allocationmethod.
No direct incentives forrenewable development (RE)or energy efficiency (EE).
Compliance easier--alreadyfamiliar with compliancerequirements due to previousprograms.
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RATE-BASED APPROACH, PROS AND CONSpros cons
No cap: new sources can be built. Reduced market transparency: some emission reductioncredits (ERCs) won't get to market.
Good for states with a diverse electricity generationportfolio.
Potential for limited market.
Credits can come from energy efficiency and renewables. Compliance mechanism not as well understood.No concerns about leakage. Disadvantages resources needed for reliability and fuel
diversity.Combined-cycle units generate ERCs. Doesn't recognize benefits of existing zero-carbon assets.Lower cost. ERCs may not be fungible.Provides flexibility for economic development. ERCs are generated after production.
Validation of ERCs can be cumbersome for regulators;ERCs subject to legal challenge."Buyer beware" - potential for litigation costs under ERCcreation
Question 4: In regard to what other issues should be addressed, membersmentioned permitting requirements, new technologies and the rate at which they areappearing and becoming available, and considering recycling as a form of energyefficiency. The role of biomass and waste-to-energy was addressed. The group alsodiscussed whether or not Virginia should join the Regional Greenhouse Gas Initiative(RGGI); no consensus was reached. Additionally, the following issues were identifiedby group members:
1. Don't lock into current technology for long-term solutions.
2. In most states, energy efficiency is the least-cost method of delivering energy.The cost/need to build new sources and transmission for load growth can be mitigatedby increasing demand.
3. Don't confuse grid modernization cost exclusively with the CPP.
4. Health benefits should be an overarching concern and inform all decisions.
5. The Clean Energy Incentive Program (CEIP)--given that it is not yet in its finalform--is likely a positive program in which Virginia should consider participating. Noconsensus was reached, but general agreement was met for the following:
• Virginia should probably join the program.• Expand the program to include renewables and energy efficiency measures to
ensure least cost projects.• Start the program earlier if possible.
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6. The following general areas of agreement were put forth by group membersas important factors to address in any plan regardless of what compliance option ischosen:
• Clearly define and address leakage.• Encourage regulatory certainty.• Encourage a well-functioning market (transparency/liquidity/efficiency); avoid
creating market distortions.• Minimize impacts/costs to consumers.• Encourage diverse power sources.• Avoid impeding economic development.• Consider a low-carbon future.• Use all available tools to get to low cost.• Level the playing field among like units.• Use performance to assess technologies.
Attachments
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ATTACHMENT A
VIRGINIA CLEAN POWER PLAN FOR GREENHOUSE GASES STAKEHOLDER GROUP MEMBERS
AEE Malcolm Woolf, Senior Vice President, Policy and Government
Affairs, Advanced Energy Economy AEP John Hendricks, Director of Air Quality Services, American Electric
Power Alpha Natural Donald Ratliff, President of Commonwealth Connections Resources Birchwood Will Poleway, Birchwood Power Partners, L.P. Power Plant Management Kris Gaus, EHS Manager Services Covanta Michael Van Brunt, Director of Sustainability Dominion Lenny Dupuis, Manager of Environmental Policy Doswell/LS Power Scott Carver, LS Power Development, LLC NRDC Walton Shepherd, Energy Staff Attorney, Natural Resources
Defense Counsel ODEC Laura Rose, Environmental Health and Safety Coordinator, Old
Dominion Electric Cooperative Tenaska Greg Kunkel VACO John Morrill, Energy Manager, Arlington Initiative to Rethink Energy VMA Irene Kowalczyk, Director Global Energy, WestRock We Act Dr. Jalonne White-Newsome, Environmental Justice Federal Policy
Analyst, We Act for Environmental Justice [participated October 2015 - January 2016]
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ATTACHMENT B
MEETING MINUTES
The baseline meeting minutes follow. Attachments are not included; complete minutes with attachments are available from the DEQ Greenhouse Gas Web Page at http://deq.virginia.gov/Programs/Air/GreenhouseGasPlan.aspx.
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ATTACHMENT C
ISSUES PRIORITIZED AND WEIGHTED BY THE GROUP
At the fourth meeting, which was held on February 19, 2016, the group was organized according to members' general stance on each compliance option, and was then asked to consider the advantages and disadvantages of each approach, including compliance, costs, benefits, and impacts. Displays summarizing the pros and cons of (i) mass-based, existing sources, (ii) mass-based with new source compliment, and (iii) rate-based were presented, and members were asked to rate each issue according to importance in order to focus on priorities. Issues where there was uncertainty or outstanding questions were also flagged. Once the group had prioritized the pros and cons for each compliance option, members then individually discussed why those choices were made.
• A red mark indicates opposition. • A green mark indicates agreement. • A yellow mark indicates uncertainty/outstanding issues to be addressed.
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ATTACHMENT D
FACILITATOR NOTES Staff took notes on flip charts during each meeting. Summaries of these notes follow. Note that flip charts were not used during the first group meeting on November 12, 2015.
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State Implementation of EPA's Clean Power Plan From a Multi-State Utility Perspective
John McManus
Vice President – Environmental Sciences American Electric Power
National Regulatory Conference
College of William and Mary Williamsburg, VA
May 20, 2016
I. State Plans for Clean Power Plan Compliance
a. A number of states in which AEP operates were actively developing state
implementation plans prior to the issuance of the stay by the U.S. Supreme
Court
i. Stakeholder processes varied
ii. Resistance in some states
iii. Little sign of regional coordination at that point
b. Activity has slowed substantially as a result of the stay issued by the U.S.
Supreme Court
c. Takeaways based on level of planning prior to issuance of the stay
II. Continuing Implications of Carbon Regulation for Integrated Resource
Planning
a. Incorporating potential carbon regulations into resource planning activities
amid uncertainty over the Clean Power Plan
b. Resource planning includes consideration of strategically adding new
renewable generation to a generation fleet that has seen significant coal
retirements
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c. Brief overview of 2016 Appalachian Power Company Integrated Resource
Plan (May 1, 2016)
III. AEP’s current perspectives on approach to carbon regulation
a. Rate versus mass compliance
b. Carbon trading between states
c. Issues that arise where a utility has fossil generation sited in one state
dedicated to serving load in another state
IV. Concluding Thoughts
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